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36 results on '"Mrass, Paulus"'

1. Dynamic Imaging of CD8(+) T cells and dendritic cells during infection with Toxoplasma gondii.

Author

John, Beena, Harris, Tajie H, Tait, Elia D, Wilson, Emma H, Gregg, Beth, Ng, Lai Guan, Mrass, Paulus, Roos, David S, Dzierszinski, Florence, Weninger, Wolfgang, and Hunter, Christopher A

Subjects
Lymph Nodes, Dendritic Cells, CD8-Positive T-Lymphocytes, Animals, Mice, Transgenic, Mice, Toxoplasma, Toxoplasmosis, Microscopy, Fluorescence, Multiphoton, Flow Cytometry, Analysis of Variance, Cell Movement, Kinetics, Transgenic, Microscopy, Fluorescence, Multiphoton, Virology, Microbiology, Immunology, Medical Microbiology
Abstract

To better understand the initiation of CD8(+) T cell responses during infection, the primary response to the intracellular parasite Toxoplasma gondii was characterized using 2-photon microscopy combined with an experimental system that allowed visualization of dendritic cells (DCs) and parasite specific CD8(+) T cells. Infection with T. gondii induced localization of both these populations to the sub-capsular/interfollicular region of the draining lymph node and DCs were required for the expansion of the T cells. Consistent with current models, in the presence of cognate antigen, the average velocity of CD8(+) T cells decreased. Unexpectedly, infection also resulted in modulation of the behavior of non-parasite specific T cells. This TCR-independent process correlated with the re-modeling of the lymph node micro-architecture and changes in expression of CCL21 and CCL3. Infection also resulted in sustained interactions between the DCs and CD8(+) T cells that were visualized only in the presence of cognate antigen and were limited to an early phase in the response. Infected DCs were rare within the lymph node during this time frame; however, DCs presenting the cognate antigen were detected. Together, these data provide novel insights into the earliest interaction between DCs and CD8(+) T cells and suggest that cross presentation by bystander DCs rather than infected DCs is an important route of antigen presentation during toxoplasmosis.

Published
2009

3. Quantitative analyses of T cell motion in tissue reveals factors driving T cell search in tissues.

Author

Torres, David J., Mrass, Paulus, Byrum, Janie, Gonzales, Arrick, Martinez, Dominick N., Juarez, Evelyn, Thompson, Emily, Vezys, Vaiva, Moses, Melanie E., and Cannon, Judy L.

Subjects
*CELL analysis, *T cells, *CELL populations, *CELL motility, *QUANTITATIVE research, *DENDRITIC cells
Abstract

T cells are required to clear infection, and T cell motion plays a role in how quickly a T cell finds its target, from initial naive T cell activation by a dendritic cell to interaction with target cells in infected tissue. To better understand how different tissue environments affect T cell motility, we compared multiple features of T cell motion including speed, persistence, turning angle, directionality, and confinement of T cells moving in multiple murine tissues using microscopy. We quantitatively analyzed naive T cell motility within the lymph node and compared motility parameters with activated CD8 T cells moving within the villi of small intestine and lung under different activation conditions. Our motility analysis found that while the speeds and the overall displacement of T cells vary within all tissues analyzed, T cells in all tissues tended to persist at the same speed. Interestingly, we found that T cells in the lung show a marked population of T cells turning at close to 180o, while T cells in lymph nodes and villi do not exhibit this "reversing" movement. T cells in the lung also showed significantly decreased meandering ratios and increased confinement compared to T cells in lymph nodes and villi. These differences in motility patterns led to a decrease in the total volume scanned by T cells in lung compared to T cells in lymph node and villi. These results suggest that the tissue environment in which T cells move can impact the type of motility and ultimately, the efficiency of T cell search for target cells within specialized tissues such as the lung. [ABSTRACT FROM AUTHOR]

Published
2023
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13. Partial loss of actin nucleator actin‐related protein 2/3 activity triggers blebbing in primary T lymphocytes

Author

Obeidy, Peyman, primary, Ju, Lining A, additional, Oehlers, Stefan H, additional, Zulkhernain, Nursafwana S, additional, Lee, Quintin, additional, Galeano Niño, Jorge L, additional, Kwan, Rain YQ, additional, Tikoo, Shweta, additional, Cavanagh, Lois L, additional, Mrass, Paulus, additional, Cook, Adam JL, additional, Jackson, Shaun P, additional, Biro, Maté, additional, Roediger, Ben, additional, Sixt, Michael, additional, and Weninger, Wolfgang, additional

Published
2019
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20. Partial loss of actin nucleator actin‐related protein 2/3 activity triggers blebbing in primary T lymphocytes.

Author

Obeidy, Peyman, Ju, Lining A, Oehlers, Stefan H, Zulkhernain, Nursafwana S, Lee, Quintin, Galeano Niño, Jorge L, Kwan, Rain YQ, Tikoo, Shweta, Cavanagh, Lois L, Mrass, Paulus, Cook, Adam JL, Jackson, Shaun P, Biro, Maté, Roediger, Ben, Sixt, Michael, and Weninger, Wolfgang

Subjects
T cells, CYTOTOXIC T cells, CELL motility, CELL physiology, PROTEINS, CYTOSKELETON, INTRA-aortic balloon counterpulsation
Abstract

T lymphocytes utilize amoeboid migration to navigate effectively within complex microenvironments. The precise rearrangement of the actin cytoskeleton required for cellular forward propulsion is mediated by actin regulators, including the actin‐related protein 2/3 (Arp2/3) complex, a macromolecular machine that nucleates branched actin filaments at the leading edge. The consequences of modulating Arp2/3 activity on the biophysical properties of the actomyosin cortex and downstream T cell function are incompletely understood. We report that even a moderate decrease of Arp3 levels in T cells profoundly affects actin cortex integrity. Reduction in total F‐actin content leads to reduced cortical tension and disrupted lamellipodia formation. Instead, in Arp3‐knockdown cells, the motility mode is dominated by blebbing migration characterized by transient, balloon‐like protrusions at the leading edge. Although this migration mode seems to be compatible with interstitial migration in three‐dimensional environments, diminished locomotion kinetics and impaired cytotoxicity interfere with optimal T cell function. These findings define the importance of finely tuned, Arp2/3‐dependent mechanophysical membrane integrity in cytotoxic effector T lymphocyte activities. [ABSTRACT FROM AUTHOR]

Published
2020
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25. Real-time tracking of cell cycle progression during CD8+ effector and memory T-cell differentiation

Author

Kinjyo, Ichiko, primary, Qin, Jim, additional, Tan, Sioh-Yang, additional, Wellard, Cameron J., additional, Mrass, Paulus, additional, Ritchie, William, additional, Doi, Atsushi, additional, Cavanagh, Lois L., additional, Tomura, Michio, additional, Sakaue-Sawano, Asako, additional, Kanagawa, Osami, additional, Miyawaki, Atsushi, additional, Hodgkin, Philip D., additional, and Weninger, Wolfgang, additional

Published
2015
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26. Granzyme B promotes cytotoxic lymphocyte transmigration via basement membrane remodeling

Author

Prakash, Monica, Munoz, Marcia, Jain, Rohit, Tong, Philip, Koskinen, Aulikki, Regner, Matthias, Kleifeld, Oded, Ho, Bosco, Olson, Matthew, Turner, Stephen, Mrass, Paulus, Weninger, Wolfgang, Bird, Phillip I, Prakash, Monica, Munoz, Marcia, Jain, Rohit, Tong, Philip, Koskinen, Aulikki, Regner, Matthias, Kleifeld, Oded, Ho, Bosco, Olson, Matthew, Turner, Stephen, Mrass, Paulus, Weninger, Wolfgang, and Bird, Phillip I

Abstract

Granzyme B (GzmB) is a protease with a well-characterized intracellular role in targeted destruction of compromised cells by cytotoxic lymphocytes. However, GzmB also cleaves extracellular matrix components, suggesting that it influences the interplay between cytotoxic lymphocytes and their environment. Here, we show that GzmB-null effector Tcells and natural killer (NK) cells exhibited a cell-autonomous homing deficit in mouse models of inflammation and Ectromelia virus infection. Intravital imaging of effector Tcells in inflamed cremaster muscle venules revealed that GzmB-null cells adhered normally to the vessel wall and could extend lamellipodia through it but did not cross it efficiently. Invitro migration assays showed that active GzmB was released from migrating cytotoxic lymphocytes and enabled chemokine-driven movement through basement membranes. Finally, proteomic analysis demonstrated that GzmB cleaved basement membrane constituents. Our results highlight an important role for GzmB in expediting cytotoxic lymphocyte diapedesis via basement membrane remodeling.

Published
2014

27. Active Immunotherapy Combined With Blockade of a Coinhibitory Pathway Achieves Regression of Large Tumor Masses in Cancer-prone Mice

Author

Lasaro, Marcio O, primary, Sazanovich, Marina, additional, Giles-Davis, Wynetta, additional, Mrass, Paulus, additional, Bunte, Ralph M, additional, Sewell, Duane A, additional, Hussain, S Farzana, additional, Fu, Yang-Xin, additional, Weninger, Wolfgang, additional, Paterson, Yvonne, additional, and Ertl, Hildegund CJ, additional

Published
2011
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28. Migratory Dermal Dendritic Cells Act as Rapid Sensors of Protozoan Parasites

Author

Ng, Lai Guan, primary, Hsu, Alice, additional, Mandell, Michael A., additional, Roediger, Ben, additional, Hoeller, Christoph, additional, Mrass, Paulus, additional, Iparraguirre, Amaya, additional, Cavanagh, Lois L., additional, Triccas, James A., additional, Beverley, Stephen M., additional, Scott, Phillip, additional, and Weninger, Wolfgang, additional

Published
2008
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30. The Er:YAG laser in endodontics: Results of an in vitro study

Author

Schoop, Ulrich, primary, Moritz, Andreas, additional, Kluger, Wolf, additional, Patruta, Sanda, additional, Goharkhay, Kawe, additional, Sperr, Wolfgang, additional, Wernisch, Johann, additional, Gattringer, Rainer, additional, Mrass, Paulus, additional, and Georgopoulos, Apostolos, additional

Published
2002
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32. Dynamic Imaging of CD8+ T Cells and Dendritic Cells during Infection with Toxoplasma gondii.

Author

John, Beena, Harris, Tajie H., Tait, Elia D., Wilson, Emma H., Gregg, Beth, Lai Guan Ng, Mrass, Paulus, Roos, David S., Dzierszinski, Florence, Weninger, Wolfgang, and Hunter, Christopher A.

Subjects
TOXOPLASMA gondii, T cells, DENDRITIC cells, PARASITISM, PARASITIC diseases, TOXOPLASMOSIS
Abstract

To better understand the initiation of CD8+ T cell responses during infection, the primary response to the intracellular parasite Toxoplasma gondii was characterized using 2-photon microscopy combined with an experimental system that allowed visualization of dendritic cells (DCs) and parasite specific CD8+ T cells. Infection with T. gondii induced localization of both these populations to the sub-capsular/interfollicular region of the draining lymph node and DCs were required for the expansion of the T cells. Consistent with current models, in the presence of cognate antigen, the average velocity of CD8+ T cells decreased. Unexpectedly, infection also resulted in modulation of the behavior of non-parasite specific T cells. This TCR-independent process correlated with the re-modeling of the lymph node micro-architecture and changes in expression of CCL21 and CCL3. Infection also resulted in sustained interactions between the DCs and CD8+ T cells that were visualized only in the presence of cognate antigen and were limited to an early phase in the response. Infected DCs were rare within the lymph node during this time frame; however, DCs presenting the cognate antigen were detected. Together, these data provide novel insights into the earliest interaction between DCs and CD8+ T cells and suggest that cross presentation by bystander DCs rather than infected DCs is an important route of antigen presentation during toxoplasmosis. [ABSTRACT FROM AUTHOR]

Published
2009
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33. Migratory Dermal Dendritic Cells Act as Rapid Sensors of Protozoan Parasites.

Author

Lai Guan Ng, Hsu, Alice, Mandell, Michael A., Roediger, Ben, Hoeller, Christoph, Mrass, Paulus, Iparraguirre, Amaya, Cavanagh, Lois L., Triccas, James A., Beverley, Stephen M., Scott, Phillip, and Weninger, Wolfgang

Subjects
IMMUNE recognition, DENDRITIC cells, LANGERHANS cells, CELL motility, LEISHMANIA, NEUTROPHIL immunology, PROTOZOAN diseases
Abstract

Dendritic cells (DC), including those of the skin, act as sentinels for intruding microorganisms. In the epidermis, DC (termed Langerhans cells, LC) are sessile and screen their microenvironment through occasional movements of their dendrites. The spatio-temporal orchestration of antigen encounter by dermal DC (DDC) is not known. Since these cells are thought to be instrumental in the initiation of immune responses during infection, we investigated their behavior directly within their natural microenvironment using intravital two-photon microscopy. Surprisingly, we found that, under homeostatic conditions, DDC were highly motile, continuously crawling through the interstitial space in a Gαi protein-coupled receptor-dependent manner. However, within minutes after intradermal delivery of the protozoan parasite Leishmania major, DDC became immobile and incorporated multiple parasites into cytosolic vacuoles. Parasite uptake occurred through the extension of long, highly dynamic pseudopods capable of tracking and engulfing parasites. This was then followed by rapid dendrite retraction towards the cell body. DDC were proficient at discriminating between parasites and inert particles, and parasite uptake was independent of the presence of neutrophils. Together, our study has visualized the dynamics and microenvironmental context of parasite encounter by an innate immune cell subset during the initiation of the immune response. Our results uncover a unique migratory tissue surveillance program of DDC that ensures the rapid detection of pathogens. [ABSTRACT FROM AUTHOR]

Published
2008
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34. Two-photon imaging of effector T-cell behavior: lessons from a tumor model.

Author

Lai Guan Ng, Mrass, Paulus, Kinjyo, Ichiko, Reiner, Steven L., and Weninger, Wolfgang

Subjects
*T cells, *MICROSCOPY, *PHOTON emission, *IMMUNE response, *LYMPHOID tissue, *PERIPHERAL nervous system
Abstract

Recent advances in two-photon microscopy have provided a new way of visualizing the behavior of fluorescently tagged cells within their natural microenvironment. This technology has allowed for generating a detailed picture of the cellular interaction dynamics operant in the activation of T cells and B cells during primary immune responses within secondary lymphoid organs. In contrast, relatively little is known about the migratory and interactive behavior of effector T cells within peripheral organs. We have recently developed a two-photon microscopy model that enables tracking of cytotoxic T cells within tumors. We have demonstrated that tumor-infiltrating T lymphocytes (TILs) follow random migratory paths and that their migratory properties depend on signals from the T-cell receptor. We further showed that TILs underwent short- and long-term interactions with tumor cells as well as macrophages. Recently, we succeeded in dynamic imaging of the distribution of fluorescently tagged molecules within TILs at subcellular resolution, which will be instrumental for defining the composition of the lytic synapse as well as the targeted release of cytotoxic granules by these cells. The purpose of this review is to put our findings into the context of the current literature and to point out the molecular cues mediating effector T-cell function as candidates for future investigation. [ABSTRACT FROM AUTHOR]

Published
2008
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36. Behavior of Parasite-Specific Effector CD8+ T Cells in the Brain and Visualization of a Kinesis-Associated System of Reticular Fibers

Author

Wilson, Emma H., Harris, Tajie H., Mrass, Paulus, John, Beena, Tait, Elia D., Wu, Gregory F., Pepper, Marion, Wherry, E. John, Dzierzinski, Florence, Roos, David, Haydon, Philip G., Laufer, Terri M., Weninger, Wolfgang, and Hunter, Christopher A.

Subjects
*CELL physiology, *PARASITE antigens, *GLYCOPROTEINS, *T cells, *LYMPHOCYTES, *RETICULAR formation, *MICROSCOPY, *CELL migration
Abstract

Summary: To understand lymphocyte behavior in the brain, we used two-photon microscopy to visualize effector CD8+ T cells during toxoplasmic encephalitis. These cells displayed multiple behaviors with two distinct populations of cells apparent: one with a constrained pattern of migration and one with a highly migratory subset. The proportion of these populations varied over time associated with changes in antigen availability as well as T cell expression of the inhibitory receptor PD1. Unexpectedly, the movement of infiltrating cells was closely associated with an infection-induced reticular system of fibers. This observation suggests that, whereas in other tissues pre-existing scaffolds exist that guide lymphocyte migration, in the brain specialized structures are induced by inflammation that guide migration of T cells in this immune-privileged environment. [Copyright &y& Elsevier]

Published
2009
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